Removed node input splitting.

AnimGraphEditor
Martin Felis 2022-02-24 22:06:47 +01:00
parent 306a2cb4d8
commit d6453911e2
3 changed files with 18 additions and 29 deletions

View File

@ -359,7 +359,7 @@ void AnimGraph::UpdateOrderedNodes() {
while (node_index_stack.size() > 0) { while (node_index_stack.size() > 0) {
std::vector<NodeInput>& node_inputs = std::vector<NodeInput>& node_inputs =
m_node_anim_inputs[node_index_stack.back()]; m_node_inputs[node_index_stack.back()];
node_index_stack.pop_back(); node_index_stack.pop_back();
for (size_t i = 0, n = node_inputs.size(); i < n; i++) { for (size_t i = 0, n = node_inputs.size(); i < n; i++) {
@ -405,7 +405,7 @@ void AnimGraph::MarkActiveNodes() {
AnimNode* node = m_eval_ordered_nodes[i]; AnimNode* node = m_eval_ordered_nodes[i];
if (CheckIsNodeActive(node)) { if (CheckIsNodeActive(node)) {
int node_index = getAnimNodeIndex(node); int node_index = getAnimNodeIndex(node);
node->MarkActiveInputs(m_node_anim_inputs[node_index]); node->MarkActiveInputs(m_node_inputs[node_index]);
// Non-animation data inputs are always active. // Non-animation data inputs are always active.
for (size_t j = 0, nj = m_node_inputs[node_index].size(); j < nj; j++) { for (size_t j = 0, nj = m_node_inputs[node_index].size(); j < nj; j++) {
@ -419,7 +419,7 @@ void AnimGraph::MarkActiveNodes() {
} }
void AnimGraph::UpdateTime(float dt) { void AnimGraph::UpdateTime(float dt) {
const std::vector<NodeInput> graph_output_inputs = m_node_anim_inputs[0]; const std::vector<NodeInput> graph_output_inputs = m_node_inputs[0];
for (size_t i = 0, n = graph_output_inputs.size(); i < n; i++) { for (size_t i = 0, n = graph_output_inputs.size(); i < n; i++) {
AnimNode* node = m_eval_ordered_nodes[i]; AnimNode* node = m_eval_ordered_nodes[i];
if (node != nullptr) { if (node != nullptr) {
@ -434,14 +434,17 @@ void AnimGraph::UpdateTime(float dt) {
} }
int node_index = getAnimNodeIndex(node); int node_index = getAnimNodeIndex(node);
const std::vector<NodeInput> node_anim_inputs = const std::vector<NodeInput> node_inputs =
m_node_anim_inputs[node_index]; m_node_inputs[node_index];
float node_time_now = node->m_time_now; float node_time_now = node->m_time_now;
float node_time_last = node->m_time_last; float node_time_last = node->m_time_last;
for (size_t i = 0, n = node_anim_inputs.size(); i < n; i++) { for (size_t i = 0, n = node_inputs.size(); i < n; i++) {
AnimNode* input_node = node_anim_inputs[i].m_node; AnimNode* input_node = node_inputs[i].m_node;
// Only propagate time updates via animation sockets.
if (input_node != nullptr if (input_node != nullptr
&& node_inputs[i].m_type == SocketType::SocketTypeAnimation
&& input_node->m_state == AnimNodeEvalState::Activated) { && input_node->m_state == AnimNodeEvalState::Activated) {
input_node->UpdateTime(node_time_last, node_time_now); input_node->UpdateTime(node_time_last, node_time_now);
} }

View File

@ -613,7 +613,6 @@ struct AnimGraph {
std::vector<AnimNode*> m_nodes; std::vector<AnimNode*> m_nodes;
std::vector<AnimNode*> m_eval_ordered_nodes; std::vector<AnimNode*> m_eval_ordered_nodes;
std::vector<std::vector<NodeInput> > m_node_inputs; std::vector<std::vector<NodeInput> > m_node_inputs;
std::vector<std::vector<NodeInput> > m_node_anim_inputs;
NodeSocketAccessorBase* m_socket_accessor; NodeSocketAccessorBase* m_socket_accessor;
char* m_input_buffer = nullptr; char* m_input_buffer = nullptr;
char* m_output_buffer = nullptr; char* m_output_buffer = nullptr;
@ -637,9 +636,9 @@ struct AnimGraph {
size_t node_index, size_t node_index,
const std::string& input_name) { const std::string& input_name) {
assert(node_index < m_nodes.size()); assert(node_index < m_nodes.size());
assert(node_index < m_node_anim_inputs.size()); assert(node_index < m_node_inputs.size());
std::vector<NodeInput>& node_inputs = m_node_anim_inputs[node_index]; std::vector<NodeInput>& node_inputs = m_node_inputs[node_index];
for (size_t i = 0, n = node_inputs.size(); i < n; i++) { for (size_t i = 0, n = node_inputs.size(); i < n; i++) {
if (node_inputs[i].m_input_name == input_name) { if (node_inputs[i].m_input_name == input_name) {
return node_inputs[i].m_node; return node_inputs[i].m_node;
@ -684,8 +683,6 @@ struct AnimGraph {
assert(node_resource.m_socket_accessor != nullptr); assert(node_resource.m_socket_accessor != nullptr);
result.m_node_inputs.push_back(std::vector<NodeInput>()); result.m_node_inputs.push_back(std::vector<NodeInput>());
std::vector<NodeInput>& node_inputs = result.m_node_inputs.back(); std::vector<NodeInput>& node_inputs = result.m_node_inputs.back();
result.m_node_anim_inputs.push_back(std::vector<NodeInput>());
std::vector<NodeInput>& node_anim_inputs = result.m_node_anim_inputs.back();
for (int j = 0, n = node_resource.m_socket_accessor->m_inputs.size(); for (int j = 0, n = node_resource.m_socket_accessor->m_inputs.size();
j < n; j < n;
@ -699,10 +696,6 @@ struct AnimGraph {
input.m_input_name = input_socket.m_name; input.m_input_name = input_socket.m_name;
node_inputs.push_back(input); node_inputs.push_back(input);
if (input_socket.m_type == SocketType::SocketTypeAnimation) {
node_anim_inputs.push_back(input);
}
} }
} }
@ -838,14 +831,6 @@ struct AnimGraph {
} }
} }
std::vector<NodeInput>& node_anim_inputs =
result.m_node_anim_inputs[target_node_index];
for (int j = 0, n = node_anim_inputs.size(); j < n; j++) {
if (node_anim_inputs[j].m_input_name == target_socket->m_name) {
node_anim_inputs[j].m_node = source_node;
}
}
if (target_node_accessor != result.m_socket_accessor) { if (target_node_accessor != result.m_socket_accessor) {
delete target_node_accessor; delete target_node_accessor;
} }

View File

@ -94,11 +94,12 @@ TEST_CASE("BasicGraph", "[AnimGraphResource]") {
size_t anim_sampler_index1 = graph.getAnimNodeIndex(anim_sampler_instance1); size_t anim_sampler_index1 = graph.getAnimNodeIndex(anim_sampler_instance1);
size_t blend_index = graph.getAnimNodeIndex(blend2_instance); size_t blend_index = graph.getAnimNodeIndex(blend2_instance);
CHECK(graph.m_node_anim_inputs[anim_sampler_index0].size() == 0); CHECK(graph.m_node_inputs[anim_sampler_index0].size() == 0);
CHECK(graph.m_node_anim_inputs[anim_sampler_index1].size() == 0); CHECK(graph.m_node_inputs[anim_sampler_index1].size() == 0);
CHECK(graph.m_node_anim_inputs[blend_index].size() == 2); CHECK(graph.m_node_inputs[blend_index].size() == 3);
CHECK(graph.m_node_anim_inputs[blend_index][0].m_node == anim_sampler_instance0); CHECK(graph.m_node_inputs[blend_index][0].m_node == anim_sampler_instance0);
CHECK(graph.m_node_anim_inputs[blend_index][1].m_node == anim_sampler_instance1); CHECK(graph.m_node_inputs[blend_index][1].m_node == anim_sampler_instance1);
CHECK(graph.m_node_inputs[blend_index][2].m_node == nullptr);
} }
TEST_CASE("InputAttributeConversion", "[AnimGraphResource]") { TEST_CASE("InputAttributeConversion", "[AnimGraphResource]") {